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I. Enhanced dielectric and ferroelectric properties of PVDF-BiFeO3 composites in 0-3
connectivity.Swagatika Dash, M N Goswami, R N P ChowdharyJournal of Alloys and
compounds, 715 (2017) 29-36
II. Structural, optical, dielectric, magnetic and magnetoelectric properties of Co-doped ZnO
nanoparticlesAninditaSamanta, M NGoswami, P. K. MahapatraJ Mater Sci: Mater
Electron 27 (2016) 12271–12278
III. Structural, electrical and magnetic characteristics of improper multiferroic:
GdFeO3S.Sahoo, PKMahapatra,RNPChoudhary,M. N. Goswamiand Ashok
KumarMater.Res. Express 3 (2016) 065017
IV. Structural and Electrical Properties of La doped BiBa (Fe0.6Ti0.4)O3 Composite CeramicB
S Kar, M N Goswami, P C JanaJournal of Physical Sciences, Vol. 21 (2016) 161-166
V. Modification of ferroelectric and resistive properties of (Bi0.5Na0.5)(Nb0.5Fe0.5)O3–PVDF
compositeSwagatikaDash,R N PChoudhary&M N GoswamiJ Polym Res 22:54(2015) 1-
7
VI. Dielectric and impedance spectroscopy of (Ba, Sm)(Ti, Fe)O3 system in the low-medium
frequency rangeSSahoo, P K Mahapatra,R N PChoudhary,MNGoswamiJ Mater Sci:
Mater Electron 26 (2015)6572–6584
VII. Observation of Pronounced Electric Polarization and strong magnetization in Mn doped
BiFeO3Nanocrystals.D. Mahesh, M N Goswami& S K MandalAdvanced Science,
Engineering and Medicine; 7 (11) (2015) 952-957
VIII. Formation of Y- and T- junction Ge nanowires by vapor-liquid-solid mechanism K
Das, A KChakraborty, M NGoswami, RKSingha, ADhar, K S Coleman, S K
RayInternational Journal of Nanoscience 06(06) 2011
IX. Temperature dependent photoluminescence characteristics of nano-crystalline ZnO
films grown by sol–gel technique . S Mandal, MNGoswami, K Das, ADhar, S K RayThin
Solid Films 516 (2008) 8702–8706
X. Room temperature ferroelectric and ferromagnetic properties of xLa0.7Sr0.3MnO3-(1-
x)ErMnO3PDey, T K Nath, M N Goswami, T K KunduApplied Physics Letters 90 (2007)
162510
XI. Single-Step Synthesis of Ultrafine PLZT from Polymer Gel precursor: Synthesis,
Consolidation and Dielectric PropertiesS Roy, S Bysakh, M N Goswami, D Jana and J
SubrahmanyamChem. Mater., 19 (2007) 2622
XII. Optical characteristics of Er3+ doped Genanocrystals in sol-gel derived SiO2K Das, M N
Goswami, ADhar, B K Mathur and S K RayNanotechnology 18 (2007) 095704
XIII. Growth of Ge islands and nanocrystals using RF magnetron sputtering and their
characterizationK Das, M N Goswami, ADhar, B. K. Mathur and S. K.
RayNanotechnology 18 (2007) 175301
XIV. Temperature dependent shape transformation of Ge nanostructures by the vaporliquid-solid methodK Das, A K Chakraborty, M N Goswami, R K Singha, ADhar, K S
Coleman, S K Ray.Journal of Applied Physics, 101 (2007) 074307
XV. Optical characteristics of Er3+ doped Genanocrystals in sol-gel derived SiO2K Das, M N
Goswami, ADhar, B K Mathur and S K RayNanotechnology 18 (2007) 095704
XVI. Growth of Ge islands and nanocrystals using RF magnetron sputtering and their
characterizationK. Das, M N Goswami, ADhar, B. K. Mathur and S. K.
RayNanotechnology 18 (2007) 175301
XVII. Temperature dependent shape transformation of Ge nanostructures by the vaporliquid-solid methodK. Das, A. K. Chakraborty, M N Goswami, R. K. Singha, A Dhar, K. S.
Coleman, S. K. RayJournal of Applied Physics, 101 (2007) 074307
XVIII. Effects of gamma irradiation on erbium in diffused lithium niobate substrateP. Ganguly,
J. C. Biswas, S. K. Lahiri, M N Goswami, G. A. Kumar and S. L. SharmaJournal of Optics,
34 (2005) 145 – 152
XIX. Experimental Realization and Characterization of the Dispersion Compensating Optical
Fiber with lower Bending Losses for DWDM Transmission in 1450 nm 1630 nm Band. P.
R. Watekar, M N Goswami, J. C. Biswas and H. N. AcharyaJournal of Optical
Communications (2005)
XX. Experimental realization of a novel dispersion-compensating optical fiber amplifier for
simultaneous compensation of positive dispersion and losses.Pramod R. Watekar, M N
Goswami, J . C. Biswas, H .N .Acharya and B. P. Pal . Optical and Quantum Electronics
(2005) 1 – 14
XXI. Effects of erbium doping depth in cladding on the performance of dispersion
compensating optical fibre amplifier.Pramod R Watekar, M N Goswami, J C Biswas& H N
Acharya. Indian J. Engg.& Mat. Sci. 12 (2005) 17 – 23
XXII. The effects of an axial index dip on a low-nonlinear and nonzero-dispersion wideband
optical fiber link containing an Er-doped dispersion compensating optical fiber
amplifier. P.R.Watekar, M N Goswami, J. C. Biswas and H. N. Acharya.J. Opt.
Communications 26 (2) (2005) 61 – 65
XXIII. Design of Single Link Dispersion Compensating Optical Amplifiers using Petermann Spot
Size Definitions and Pump Power/Er-concentration Optimization Technique. P. R.
Watekar, M N Goswami, J. C. Biswas and H. N. Acharya.J. Opt. Communications 25 (6)
(2004) 263 – 266
XXIV. Charge Storage and Photoluminescence Characteristics of Silicon Oxide Embedded
GeNanocrystalTrilayer Structures. K. Das, S. Maikap, Je-Hun Lee, M N Goswami, R.
Mahapatra, G. S. Kar, A. Dhar, H. N. Acharya and S. K. Ray. Applied Physics Letters
84(8) (2004) 1386 – 88
XXV. A Novel dispersion compensating Optical fiber amplifier: Experimental studiesP. R.
Watekar, M N Goswami, J.C. Biswas, H. N. Acharya and B. P. PalJournal of Optics
(India) 33(4) (2004) 255 – 263
XXVI. Simultaneous Compensation of Dispersion and Losses Using Er-doped Double-Core
Optical Fiber. P. R. Watekar, M N Goswami, J. C. Biswas and H. N. Acharya.Optical and
Quantum Electronics 36(5) (2004) 405 – 411
XXVII. Synthesis of Er3+ and Er3+:Yb3+ doped sol-gel derived silica glass and studies on their
optical properties. DipankarMandal, H. D. Banarjee, M N Goswami and H. N.
AcharyaBulletin of Material Science 27(4) (2004) 367 – 372
XXVIII. Photoluminescence properties of Eu3+-doped barium strontium titanate (Ba, Sr) TiO3
ceramics C. B. Samantaray, M N Goswami, D. Bhattacharya, S. K. Ray and H. N.
AcharyaMaterials Letters 58 (2004) 2299–2301
XXIX. Er-doped concentric-cores optical fiber for simultaneous amplification and
compensation of positive dispersion. P. R. Watekar, M N Goswami, H. N. Acharya, J. C.
Biswas and B. P. Pal. Chinese Optics Letters 02(01) (2004) 12 – 14
XXX. A novel design of the low non-linearity dispersion compensating optical fiber amplifier
and link for DWDM transmission in the 1540 – 1580 nm band. P. R. Watekar, M N
Goswami, J. C. Biswas and H. N. Acharya.Journal of Optical Communications 25
(2004) 263 – 266
XXXI. Electron-phonon interaction assisted photoluminescence in Eu2O3nanocrystalsP.
Mohanty, S. Ram, M N Goswami and H. N. Acharya. Indian Journal of Physics 78A
(2004) 239 – 242
XXXII. Preparation and characterization of nanocrystalline Sr1-xBi2+yTa2O9 powders. AsitBaran
Panda, AmitaPathak, M N Goswami, PanchananPramamik.Material Science
Engineering B 97 (2003) 275 – 282.
XXXIII. Experimental realization of double core dispersion compensating optical fiber for Sband optical communications. P. R. Watekar, M N Goswami, and H. N.
Acharya.Quantum Electronics 33(6) (2003) 542 – 544
XXXIV. Effect of axial index dip on the characteristics of broadband dispersion compensating
optical fiber. P. R. Watekar, M N Goswami, S. Kher, J. C. Biswas and H. N. Acharya.Indian
J. Pure & Appl. Phys. 41 (2003) 358 – 361
XXXV. Er-concentration/minimum pump power optimization technique for design of
broadband single link using Er-doped dispersion compensating optical amplifiers. P. R.
Watekar, M N Goswami, J. C. Biswas and H. N. Acharya.Indian J. Engg.& Mat. Sci. 10
(2003) 27 – 32.
XXXVI. Studies of the emission characteristics of Erbium/Ytterbium-doped optical fibers.
P.R.Watekar, J.R.Panda, MN Goswami, S.Kher, J.C.Biswas and H.N. Acharya.Indian
Journal of Physics 77B (4) (2003) 439 – 441
XXXVII. Fluorescence and SEM/EDAX studies of Erbium doped SiO2-GeO2 preforms processed by
MCVD. P. R. Watekar, M N Goswami, J. C. Biswas and H. N. Acharya.Indian Journal of
Physics 76A (6) (2002) 527 – 529
XXXVIII. Diffuse phase transition in modified lead germanate ferroelectrics. M N Goswami, H. N.
Acharya, R. N. P. Choudhary and P. K. Mahapatra.Journal of Physics D: Applied Physics
34 (2001) 1 – 6. 39. Diffuse phase transition in modified Pb5Ge3O11 ceramics. M N
Goswami, R. N. P. Choudhary and P. K. Mahapatra.Phase Transition 69 (1999) 169 –
182.
XXXIX. Ferroelectric phase transition in modified lead germanate. M. L. Nanda Goswami, R. N.
P. Choudhary and P. K. Mahapatra.Ferroelectrics 227 (1999) 175 – 187.
XL. Dielectric and pyroelectric properties of Pb5-xAxGe3O11 (A=Ca, Sr, Ba) ferroelectrics. M N
Goswami, R. N. P. Choudhary and P. K. Mahapatra.Journal of Material Science Letters
18 (1999) 723 – 725.
XLI. Structural, dielectric and pyroelectric properties of La-doped Pb5Ge3O11 ferroelectric. M
N Goswami, R. N. P. Choudhary and P. K. Mahapatra.Indian Journal of Physics 73A(4)
(1999) 445 – 452.
XLII. Structural and electrical properties of modified lead germanate ferroelectrics. M N
Goswami, R. N. P. Choudhary and P. K. Mahapatra.Journal of Physics and Chemistry
Solids 59 (1998) 1045 – 1052
XLIII. Phase transition in Pb5Ge2TiO11 ceramics. M N Goswami, P. K. Mahapatra and R. N. P.
Choudhary.Materials Letters 35 (1998) 329 –333.
XLIV. Structural and electrical properties of Zr modified Pb5Ge3O11 ferroelectrics M N
Goswami, R. N. P. Choudhary and P. K. Mahapatra.Ferroelectrics 216 (1998) 1-10.
XLV. Phase transition in Pb5Ge2ZrO11 ceramics. M N Goswami, R. N. P. Choudhary and P. K.
Mahapatra.Chemical Physic Letters 278 (4-6) (1997) 365 – 368.
XLVI. Structural and electrical properties of Pb5Ge2.5Ti0.5Ge3O11 ferroelectrics. MNGoswami, P.
K. Mahapatra and R. N. P. Choudhary.Indian Journal of Pure & Applied Physics 35
(1997) 743 – 748.
XLVII. Structural and electrical properties of TiNaMoO4. R. N. P. Choudhary, M N Goswami and
S. Sharma.Indian Journal of Pure & Applied Physics 35 (1997) 397 – 401.
XLVIII. Phase transition in TlLiMoO4 ceramics. R. N. P. Choudhary, M N Goswamiand S.
Sharma.Indian Journal of Physics 71A(2) (1997) 153 – 160.
XLIX. Successive phase transition in TlNaWO4 ceramics. R.N.P.Choudhary, S.Sharma and M N
Goswami.Materials Letters 32 (1997) 37 – 41.
L. Structural and electrical properties of TlLiWO4 ceramics. R. N. P. Choudhary, S. Sharma
and M N Goswami.Journal of Material Science Letters 16 (1997) 908 –910.
LI. Ferroelectric Phase transition in TlKWO4. R. N. P. Choudhary, M N Goswami and S.
Sharma.Ferroelectrics 200 (1997) 13 – 20.
LII. Design and fabrication of low cost ferroelectric loop tracer – a noble experimental setup. R.N.P.Choudhary, S. Bera, T. Kar and M N Goswami.Physics Education (India) 14
(1997) 255 – 260.
 List of Books/chapters in book published /edited:
i) Goswami, M N. Dhumketu.201